Tabulating machine



WITNESSES W. W. LASKER TABULATING MACHINE Filed March 5, 1936 FIGII 6 Sheets-Sheet 1 INVENTOR, w. w.1 AsK -:R

HIS ATTORNEY 1940- W.W.LASKER I 3 TABULATING MACHINE Filed March 5, 1936 6 Sheets-Sheet 3 HIS ATTORNEY Jan. 2, 1940. Q w. w. LASKER 2,185,260

TABULATING MACHINE Filed March 5, 1956 5 Sheets-Sheet 4 v WITNESSES INVENTOR W.W.LASKER a? m HIS AT ORNEY Jan. 2, 1940 w. w. LASKER TABULATING MACHINE- Filed March 5, 19256 6 Sheets-Sheet S mvzmoa W.W.LASKER HISATTORNEY Jan. 2, 1940. w. w. LASKER 2,135,260

TABULATING MACHINE Filed March 5, 1936 e Sheets-Sheet 6 FIG.8

WITNESSES 4 INVENTOR W.W.LASKER W W 442M HIS ATTORNEY ill Patented Jan. 2, 1940 PATENT OFFICE TABIULATING mom];

William W. Lasker, Brooklyn, N. Y., assignor to Remington Rand Inc., Buffalo, N. Y., a corporation of Delaware Application March 5, 1936, Serial No. 67,215 4, Claims. (c1. 29.5-61.9)

This invention relates to record card controlled tabulating machines and particularly to an alphabetic and numerical tabulating unit therein combined with accumulating mechanism.

-In a tabulating machine of the type disclosed in the patent to Powers 1,245,502, granted November 6, 1917, known as a forty-five column tabulator, it has been customary to print and accumulate numerical data from record cards punched according to a single unit code to indicate the desired digit, the digit being represented by the perforation position in a vertical column of twelve possible perforations. Alphabetic characters may be printed in a tabulator of this type by utilizing a type carrier similar to that described in the patent to Foster 1,274,528, granted August 6, 1918, in conjunction with a combination perforation code. In this arrangement the printing of certain alphabetic characters is controlled from a single perforation in a card column, whereas theprinting ofdzthers is controlled by two perforations. By means of themodification disclosed in applicants ,Patent 1,780,621, granted November 4, 1930, the capacity of such machines was increased insofar as numerical tabulation was concerned by dividing the record card into two zones, each containing six perioration positions and providing a numerical stop basket operable from either zone in'accordance with a two unit code. However, applicant is not aware of any alphabetic printing system operable from either zone of a standard record card that might be incorporated satisfactorily with the .Powers tabulator. o

Furthermore-in the construction of tabulating machines, the general custom has been to provide seven tabulating units, two of which were equipped with alphabetic types, the remaining five with numeral types and means to accumulate numerical quantities. However, dissimilar ,accountingsystems adapted to the particular requirements of various industries'often necessitate differing proportions in the arrangement of these units. In fact, due to the multiple func tions a tabulating machine may perform, this. condition frequently arises within the same office. Since theabovedescribed set-up cannot be changed to comply with varying circumstances without loss of time and'additional expense, the need for a more flexible tabulating unit is apparent. V

The present invention provides a combined alphabetic and numeral type positioning and accumulating unit operable from a multi-unit code that may be represented by perforations in either -clusive of duplicat'edinformation that could be the upper or lower 'zone of arecord card. This unit is especially adapted to function as a designating unit in conjunction with the standard Powers tabulator now in general use, or may be substituted, for the usual numerical computing 5 .unit therein. In certain accounting problems it is necessaryto provide an alphabetic designation, whereas in others, a numerical designation may be required. Either requirement is readily fulfilled,by this invention and in addition thereto, the numerical characters may be tabulated and concomitantly accumulated should the exigencies of a particular accounting problem so require. Furthermore, the capacity of a tabulator, operable from standard record cards and equipped with units of this type, would be increased to the extent that ninety columns of information may be printed simultaneously on a report sheet exprinted by means ofwye-wiredcontrols.

This application is a continuation in part of my copending application S. N. 684,438, filed August I'he object of this invention is to increase the capacity andflexibility of tabulating machines.

Another object of this invention is to provide an improved type carrier positioning mechanism combined with accumulating mechanism.

Another object of .thisin'vention is to provide means to print alphabetic and numeral characan improved designating unit for tabulating ma- 40 chines.

Another object of this invention is to provide a combined alphabetic and numerical designating unit operable from either zone of a standard r record card.

Another object of this invention is to provide an improved stop basket mechanism capable of setting a type carrier in a plurality of positions greatly in excess of the number of perforation positions contained in a record card.

Other objects of this invention and details of the structure will be apparent from the following description when read -inconjunction with the accompanying drawings, in which:

Fig. 1 is a conventional front to rear sectional view through'a Powers tabulator equipped with the invention;

' Pig. 2 is an enlarged. sectional view of the invention showing the .various mechanisms of-a combined alphabetic and numeral type positioning and. accumulating unit in normal position;

Fig. 3 is a sectional view similar to, that of Fig.

' 2, but discloses-the relative positions of the various mechanismsat a time immediately prior to the mid-point of a cycle of operation after an Fig. '7 is a side elevation of the' several frames of the various mechanisms and illustrates the stop bar controlling mechanism; e

Fig. 8 illustrates the essential modifications necessary to increase, the capacity 'of the stop basket mechanism.

General description of operation The embodiment of the invention, shown in Fig. 1, includes broadly a base component ii), a translating component 28, and a computing component 38. Record cards, placed in a card maga- .zine I I, are passed seriatim into a sensing cham- "ber I2 by means of picker mechanism l8 and feed rollers l4. After being sensed ,by pins i5,

' the cards are ejected by rollers 18 into a receiving magazine H. The sensing pins are mounted in a pin box I8 that is reciprocated by a'cam arrangement conventionally shown on drive shaft l9. Pins that sense perforations in a record card move upwardly relati e to pins that do not sense perforationaglue to a arrangement of springs, slides, and latches in the pin box. Pins that pass through perforations in a card elevate pins 24, set

in an intermediate pin box 25, and thereby ele-' slidably mounted in vate translator wires 2i, translator basket 22.

, The translator wires 22 (Fig. 2) impart motion to code bars mounted in a stop basket 48 through a change of, direction mechanism mounted in frame 59. When the code bars are set according to the perforations in a sensed card, a plurality of spring urged stop bars 48 are released by means of a slide (Fig. 7) actuated by cam 8| fixed on computing head'drive shaft 82. One

' of the stop bars'will then be elevated in accordshoe with thesetting of the code bars to arrest the forward motion of rack I9.

Rack 10 maybe obstructed in any of a plurality of positions in either of two ranges of po-' sitions according to the stop bar that has been raised. When stopped in the first or alphabetic range, the rack serves to position the type carrier so that an alphabetic character may be printed onv a reportsheet (not shown) supported by platen, 85. When stopped in the second or numefical range, the rack sets the type carrier to printing position for a numerical character and concomitantly actuates an auxiliary rack 82 (Fig.

4) :to cause an accumulation of/the quantity in a totalizer wheel 9|. m The foregoing brief description of operation will serve to illustrate the mechanical cooperation between the several mechanisms comprising the present invention and the particular portion of a Powers tabulator that may act in conjunction therewith. I

The base component shown herewith is an integral part ofstandard Powers construction andconsists essentially of 'driving means, card feeding mechanism, card sensing mechanism and total taking control mechanism. These devices are well known in the art and are fully disclosed in copending application 8. N. 538,429 filed May 19, 1931, now Patent No. 2,044,119, granted June 16, 1936. Since they do'not forma partof the present invention they are not shown in detail herein. The translator basket is also a well known device whereby the motion of the sensin pins may be transmitted to set stops in the stop basket.

Type carrier and controls The type carrying mechanism .89 (Fig. 2) is a modification of that used in the usual Powers construction. In thepresent case, a type carrying sector 8 I pivotaliy mounted on shaft 88, is'rigidly attached to a gear sector 82. The sector 8| is provided withslots to accommodate thirty-two types. The types are divided into-an alphabetic range and a numerical range. The alphabetic characters occupy the first twenty-three positions (in the order of presentation to printing position) on the type sector and may be arranged in any order thereon, the only limitation being that the character 0 shall occupy the twentythird position. The entire alphabet may be represented on the twenty-three types by combining two characters on one type in a manner well known in the art, that is, U and "V may be represented by a single symbol as would *X" and Z; Y and W.'* The numerical range occupies the last nine positions on the sector. The numeral 1 is in the first position immediately following the last character in the alphabetic range. The remaining numeral characters are arranged thereafter in ascending order. Thus it will be seen that the type character 0 may represent either a cipher or an alphabetic character.

The type carrier is resiliently urged to rotate ina clockwise direction by a spring 88A (see Fig.

4) extended from an arm 83 of sector 8| to the frame of the machine in the usual manner, but is retained in its normal position, as shown in Fig. .2, by restoring bail 84. During each cycle of operation the ball 84 is oscillated in a well known manner by means of a link 88 pivoted to crank 88 fixed on a shaft which is rotated in a counterclockwise direction by drive shaft 82. The gear sector 82 is designed to mesh with a rack element III that is slidably mounted in grooves cut in plate H Thus, the arcuate motion of the type carrier is utilized to transmit horizontal motion to rack 18. During an accumulating cycle, the type carrier follows the bail 84 forwardlyuntil itsassociated rackis impeded. by one of the stop bars 48. The bail continues under the control ofshaft 82 to the end of its forward movement and on its return urges the type carrier and associated rack to normal position. Shaft 82 of the computing component and shaft l9 6! the base component are synchronously driven from the main drive shaft (not shown) by means of a bevel gear arrangement, in a manner well known in Powers tabulators and disclosed in the patent to W. W. Lasker et al., No. 2,124,177, issued. July 19, 1938.

Both shafts make one complete revolution during each and every cycle of operation of the machine.

Stop basket mechanism The stop basket mechanism 40 (Fig. 2) consists essentially of code bars, stop bars 43 and avertically reciprocable plate 44. The stop basket frame is made up of a pair of vertical side plates connected by. a series of transverse bars 46 which also serve to guide and support a plurality of sets of notched code bars. In the form of the invention disclosed in Figs. 1 to 4 inclusive, 9. set of code bars consists of four variably notched bars 4 and a fifth uniformly notchedcontrol bar 42. The variably notched'bars are arranged in pairs in vertical alignment with the associated control bar as shown in Fig. 6. The bars 4| are of the well known permutation type whereby a single element, of a plurality of" elements cooperating therewith, may be allowed a free path through the notches therein according to the particular setting thereof. The manner of notching of the several permutation bars may be by any arbitrary arrangement. Acting in conjunction with each set of code bars is a set of sixteen resiliently urged stop bars 43, each of which is provided with three turned over lugs 41 that are capable of cooperating with the lower edges /of thecode and control bars, The control bar 42 is displaced or fgrward position (Fig. 3), the lower "edge thereof limits the upward travel of the stop bar to an extent equal to half the depth of the notches in the code bars. By this means the forward motion of rack 10 may be arrested by any stop bar in either of two positions, that is,

' when fully raised, a stop bar bears against the forward face of the rack (Fig. 4.); when raised to its intermediate position, the stop bar does not affect tl' eforWard motion of the rack until the rack has progressed a half step further whereat the stop bar bears against a stepped portion Therefore, it will ll formed thereon (Fig. 3). be seen that it is possible to selectively set for actuation any one of sixteen stop bars 43 by means of code bars 4| and further, to govern the extent of such actuation by means of control bar 42 and thereby position the rack IUso that any one of the thirty-two types on the type carrier geared thereto may be placed in printing position. The alphabetic range of stops in the stop basket consists of the first eleven (counting from right to left in Fig. 2) stop bars when in either their fully raised or intermediate position and the twelfth bar when fully raised, whereas the numerical range consists of the twelfth bar in its intermediate position and the remaining four bars in either position.

The lower ends of stop bars 43 are constructed to pass freely through perforations in a verti .cally reciprocable plate 44 and engage with inverted T-shaped bars 48 rigidly fixed to said plate and arranged transversely thereto (Fig. 2) Four horizontal studs 49 (Fig. 7) two on each side of plate l4, pass through vertical slots in sideplates 45 and also into inclined cam slots in slides 60. As a result, when slides 6|] are moved rearwardly, plate M is moved'upwardly a distance equal to the vertical component of the inclined cams. The-slides are suitably guided by studs on the on lever 64 cooperates with cam 6| fixed toy drive shaft 82 to urge slide 6|) forwardly. against the tension of its spring 63. When the machine is in its normal position, as indicated in Fig. 2, the base plate 44 is held in its lowermost position by cam 6| and the stop bars 43 are held retracted by transverse bars 48 so that the turned over lugs 41 on the stop bars .are clear of the code bars and allow a free movement thereof. During an accumulating cycle the follower 66 (Fig. '1) will pass oif'the high dwell of cam 6| and allow slides'fill to be moved rearwardly by springs 63 immediately after the code bars have been positioned. The plate 44 is then moved upwardly, the studs 49 thereon being.

,' .wardly under pressure of their respective springs.

Only one will be elevated however, since the remaining fifteen will be restrained by the contact between either of the turned over lugs 41 thereon and the lower edges of code bars 4|..

The change of direction mechanism mounted in frame 50 (Fig. 2) is essentially a modified bell crank arrangement whereby the vertical motion of translator, wires 2| may be converted to horizontal motion and imparted to the code bars. Vertical tray pins 5|, suitably guided. by transverse bars rigidly fixed in the frame, transmit the upward movement of their respective translator wiresto bell cranks 52 pivotally mounted in the frame. The bell cranks in turn act on horizontal tray pins 53, the forward ends of which bear against the code bars. resiliently urged to normal or rearward position by spring-pressed pins 54 slidably mounted in pin box 55 which in turn is rigidly mounted between the side plates of the stop basket frame.

Operation of type positioning mechanism W'hen card perforations representing an alphabetic character have been sensed and the code bars set in accordance therewith (Fig. 3), the

follower 66 passes off the high dwell of cam 6| and allows the plate 44 to rise, thereby positioning the stop bar for which a path has been cleared.

During the interval in which a stop bar is being;

The code bars are follows the bail forwardly until the rack 10 is impeded by the stop bar that has been raised. A type on the sector, corresponding to the coded perforations of the record, is then in printing position. Immediately prior to" the completion of the forward sweep of bail 84, a linkage (not shown) connected thereto causes the firing of a printing hammer mechanism (not shown) that hasbeen set for operation by the printing hammer enabling lever 81. mechanism and associated devices are well known in the art and,.since they do not form a part of the present invention, are'not described herein. Immediately before the return motion of bail 84 has urged the type sectors and associatedraeks The printing hammer lowering of plate 44 and consequentlowering of the stop bars. I

. described above-operate in the same manner but, 1

in addition thereto, means are provided to accumulate the-number-in a totalizer 90. To perform this function, the 'rearwardly extending portion of rack" is provided with a latch element I2 (Fig. 4). The rack 10 is so constructed that when, during itsforward travel over the stop bars, its forward face passes from the alphabetic to the numerical range, an auxiliary rack 92 is actuated by means of link 14. The link is joined by a spring and pin-in-slot connection to the auxiliary rack and is provided with a stud I3 designedto 'be engaged by latch '12. When the latch :engages stud 13, a forward motion is imparted to link 14 and another stud 15 thereon travels down an inclined. cam face on stationary cam 16 and forces stud 13 into the recessed portion of latch 12 and locks the racks to each other as it rides along the lower horizontal face of the stationary cam 16. The' auxiliary rack will then advance forwardly a distance equal to they thrust of the forward face of rack 10 into the numerical range; The construction of the various elements is such that the pitch of a tooth on the auxiliaryrack 92 is equal to the depth of the stepped portion 11 on rack .10 and also is equal to one half the distance between homologous edges of adjacent stop bars 43. Therefore the number of teeth on the auxiliary rack that pass the center line of the totalizer wheel 9l-- 3' is the equivalent of the digit sensed. When rack I is moved rearwardly, by the return movement of bail 84 it carries the auxiliary rack with it until stud 15 rides up the inclined cam face of a pendant extension at the rearward extremity of stationary cam I0. Stud 13 is thereby lifted from latch 12, disengagingthe auxiliary rack 92 from rack 10 and rack 10 continues independently to its normal position. Fig. 4 illustrates the relative position of the various mechanisms at a time immediately subsequent to the mid-point of a cycle of operation after perforations repre-' senting the numeral 4 have been sensed.

Totalizer control mechanism Immediately preceding the forward movement .of rack 10 during an accumulating cycle, the totalizer wheels 9| are disengaged from the rack 92 by atotalizencontrolling mechanism of the typeillustrated in Fig. 5. This device is well disclosed in French Patent No. 719,524 and'in the 'aabove cited Patent No. 2,124,177. Therefore, a brief resume will suffice for the purposes of this description. Referring to Fig. 5, a cam IOI fixed to drive shaft 62 is arranged to rock bell cranks for each rear totalizer with which the machine is equipped. An arm I09, fixed to rock shaft 35, extends rearwardly and bears upon a stud IIO on the pitman to hold the pitman in its lowermost position during an accumulating cycle. The timaiassao known in the art and its operation is completely ing a this mechanism is such that immediately preceding the forward sweep ofbail 00. the bell prank I02 'isrocked in a countereclockwise direction by cam Ill and, in turn, rocks shaft I01 v clockwise'by means of pitman" I05 and arm I00.

This motion serves to elevate links 93, pivoted on arms I 00, and thereby raise the rearward end of levers 94 on which the totalizer wheels 9i are -mounted. The totalizer rema'insdisengaged until .return' stroke of an auxiliary rack rotates-the associated wheel througha number of tooth spaces equal to the digit sensed. -The totalizer is engaged and disengaged in the above mentioned manner during every revolution of shaft 52.whether the character sensed be numeral or alphabetic. However, in the case of an alphabetic character this motionwill .be an idleone since the totalizer actuating rack 92 will not hav been moved forwardly by rack I0.

During a total taking operation it is necessary to reverse the timingof an accumulating cycle,

-.'that is, to engage the totalizer with its actuating rack on the forward stroke of bail 84 and disengage the totalizer on the return stroke of the bail. To accomplish this, the shaft 35 is rocked counterclockwise in a manner to be described hereinafter. The arm I09 is then rocked to allow the spring urged pitman I05 to move upwardly so that stud I04 is in position, to be engagedby bell crank I03. As shaft 62 rotates it will be seen that the desired reversal of timing is effected.

Totolizer mechanism Any suitable adding device may be combined with the foregoing mechanisms to accumulate numerical quantities. The type shown herein is similar in construction and in operation to those employed in Powers tabulators now in general use and is a modification of the type disclosed in copending application S. N. 681,333 filed December 1923. The mechanism includes a pair of levers 90 (Fig. 2), pivotally mounted on a transverse shaft I50 journaled at each end in suitable frame plates I5I. The rearward ends of levers 94 are joined by a spring and pin-in-slot connection to the upper ends of links 99 of the totalizer controlmechanis'm. Supported between levers 94 is a transverse shaft I52 on which are mounted the totalizer wheels 9| of the adding mechanism. Associated with each wheel 9| isan actuating rack 92, slidably mounted'on rollers I 59 andurged rearwardly by a spring I 54 connected to link 14.

. For effecting transfers in this type of mechanism, each wheel 9| is provided with a lever 95,

pivoted at its forward end on shaft I50. 'Each' lever 95 is urged upwardly by a springfl extended between a comb piece 91, mounted in frame plates 'I5I, and the forwardly extending tail on a pawl 96 that is pivoted on lever 95 and hasa rearward edge which normally bears against a bent-over portion of the comb piece. The upward movement, of each lever 95 is limited by a shoulder I on the actuating rack 92 associated with the adjacent totalizer wheel of higher order.

When an actuating rack 92 is moved rearwardly during the latter poi-tion of each accumulating 7 cycle, ear I51 1: the lever 95, associated with the adjacent accumulator wheel of lower order, is resiliently held'in the path of shoulder I58, .due to the tension of spring f55, and serves to limit the under the bent-over portion of comb piece 91, dueto the action of spring I55, whereby lever 95 is retained in depressed position. Thus, ear I51 is held out of the path of movement of shoulder I58 andrack 92 moves rearwardly until a pin I6I thereon contacts the end of the slot I62-in link 14. The additional distance so traveled by the rack is equal to the pitch of a tooth on wheel 9I and, therefore, the totalizer wheel is rotated through an additional tooth space to effect the necessary transfer.

To restore the mechanismto normal position after a transfer has been effected, the forward end of each lever 94 is provided with an'u'pwardly extending arm 99 to which is connected a link I63 having a cam slot I64 encompassing a stud I65 mounted in frame plate I5I. Supported between the rearward ends oflinks I63 is a transverse bar I66 on which is adjustably mounted a bail bar 93 arranged to coact with pawls 96. When levers 94 are rocked counter-clockwise during the initial portion of the succeeding accumulating cycle, arms 99 are also rocked counterclockwise and serve to pull links I63 forwardly to urge bail bar 98 against any pawls 96 that have snapped under comb piece 91. Pawls 96 are thereby forced out of engagement with comb piece 91 and the assoelated levers 95 are then free to be returned to their upper positions when the racks 92 are moved forwardly. After rack 92 moves forwardly a distanceequivalent tothe pitch of one toothon wheel 9I, ear I51 is clear of the lower edge of shoulder I58 and lever 95 is returned to its original position by spring I55. Ear I51 is then in position to limit the movement of rack 92 as above, when the rack is returned. 1

Description of totaling cycle A totaling cycle may be initiated in a tabulator equipped with combined type positioning and accumulating units of this kind by inserting a spec hard and a total card atthe end of a sequence of item cards. The space card serves to reset any tripped transfer mechanisms and restore the associated actuating racks 92 to normal position. The total card serves to initiate the operation of the total taking mechanism.

In the particular arrangement of permutation bar notches used herewith and conventionally dis- 'closed'in the drawings there is an unobstructed path for the twelfth stop bar when the mechanism is in the normal position, that is, when no translator wires 2] have been raised (Fig. 2). Thus, a column in a record card, devoid of perforations, will effect the elevation of the twelfth.

stop barv to its highest position. The space card referred to above is completely blank in the item fields and consequently would cause\ the positioning of a 0 by every type sector. A spacing 7 cycle is in form an accumulating cycle in that the totalizer wheels 9I are disengaged from the actuating racks 92 during the forward stroke of racks 19 and engaged during their return. The rack 10 is so constructed that the latch 12 thereon engages stud 13 of link 14 when the forward face of the rack passes the mid-point of the eleventh stop bar 43. When an actuating rack 92 has not previously been moved rearwardly by the action of the transfer mechanism .of the adjacent totalizer wheel of lower order, the subsequent .movement of the forward face of rack 10 from themidpoint of the eleventh stop bar to the rearward face of the twelfth stop bar would merely serve to advance link 14 so that the rearward end of the slot therein would contact the pin on rack 92.

If, however, the rack 92 has been moved rearof the total taking mechanism. This mechanism is a standard partof the Powers tabulator now in general use and is completely described in the above mentioned Patent No. 2,044,119. A detailed description of this device does not appear to be necessary in the presentcase and it will suffice to state that a link 23 (Fig. l) is pulled downwardly during a total taking cycle. This motion serves to rock shaft 3i in a clockwise direction through an obvious linkage. Fixed on shaft 3I is an arm 32 (Fig. 2) and a plurality of latch elements 36 (Fig. '7). Pivoted to arm 32 (Fig. 2) is a link 33 which is connected at its rearward extremity to an arm 34 fixed on shaft 35. When shaft 3I is rocked, shaft 35 will be rocked in a counter-clockwise direction and raise arm I99 (Fig. 5) fixed thereto to effect the reversal of the timing of the totalizer engaging mechanism referred to hereinabove. Since the'total card is unperforated except in the forty fifth column, it also tends to effect the elevation of the twelfth bar of every set of stop bars 43. Such an cecurrence would obviously prevent the yielding of a total. Therefore the latches 36 have been slides 69 before the followers-66 pass off the high.

dwell ofcams 6I. The slides 60 are then held in their forward position and do not elevate plates 44. Consequently all the stop bars of every set are held in retracted position. As the bails 94 are actuated by shaft 62 the racks 10 are then free, to move forwardly until the associated totalizer wheels are rotated to zero position, whereat one of the transfer studs on each wheel bears against a stopping element on levers 95. A type on each type carrier, corresponding to the quantity registered by the associated totalizer wheel, is then in printing position. The resulting number, when printed, represents the total of the numerical items previously tabulated. Be-

fore the racks are restored by balls 94, the totalizer wheels are disengaged from the actuating racks and remain at zero so that a new set of numerical ,items may be accumulated therein;

increasing capacity of stop basket perforation positions in either the upper or lower 6 ai saaco none of a 90 column card. flhe sixth perfora- I Fig. 8. The notching arrangement on these bars may besimilar to that of the bar "except that the depth of the notches in control bar It is .equal to one-third the depth of those on the code bars H, and the depth of the notches on control bar "is equal to two-thirds the depth 01 those on the code bars. Thus, it will be seen that when both control bars are in their undisplaced position, a-stop bar may be raised the full extent of thenotohes in the code bars. When control bar 38 is displaced a stop bar is limited to two-thirds the 'imwald" travel of a stop bar to one-third the depth of the notches in the code bars. In this case the rack 10 is provided with two shoulders 18 and I8 that are designed to cooperate with the stop bars when raised to either intermediate height. When thismodification is em loyed and the other mechanisms are adjusteio igconformthereto, it is possible to stop the r l3 '10 in any one of forty-eight possible positions ahd thereby .position type'carrier 8| accordingly.

controls; This procedure has been followed to eliminate unnecessary duplication and resulting confusion in the drawings. It will be tacitly understood that the number of type carriers that invention, and I, therefore, do notlimit myself to-the exact form herein shown and described;

nor to g less than the whole of my invention as herei'nbefore set forth, and as hereinafter claimed. a

What I claim as new, and desire to secure by- Letters Patent, is:

)1. In arecord controlled tabulating machine, incombination, a stop basket, said stop basket having a plurality-oi stops arranged in two groups,

- means to render 'eilective any one of said stops during each tabulating cycle of said machine, a

type carrier positioning element arranged to traverse said'groups of stops and capable of cooperating with any effective stop, a totalizer actuating rack operable with said positioning element,

and means to cause said actuating rack to operate with said positioning element when said positioningelementpamesfromthefirstofsaidgrorups of stops o the second of said groups of stops and tocontinue the operation of-said rackduringtheperiodinwhichsaidpositioning elementistraversingthesecondgroupotstm".

2. In a recordcontrolled tabulating machine,

in combination, a type carrier having alphabetic and numeral type arranged thereon, a reciprocable type carrier-positioning-element for placing any type in printing position, a plurality of stops arranged in two, groups inthe path of movement second group being arranged when eflective to control said positioning element to place a numeral type in printing position, record controlled means tovrender any stop effective, a totalizer,

} an actuating rack operable by said positioning of such movement. Displacement of bar 38 limits element for'inserting amounts in said totalizer, and a lostmotion connection between said actuating rack and said positioning element whereby said actuating rack is operated by said positioning element only when said positioning element is controlled bya stopin the second group of stops.

3. In a record-controlled tabulating machinepositioning means including a reciprocable element geared to the type carrier, a totalizer for accumulating numerical quantities, actuating means for inserting amounts in said totalizer, and

position, said last recited means comprising a lost motion connection between said totalizer actuating means and said reciprocable element.

, 4. In a record controlled tabulating machine, in combination, a type carrier having alphabetic and numeral type arranged thereon, a reciprocable type carrier positioning element for placing any type in printing position, a plurality of stops arranged in two groups in the patch of movement of the positioning element, each stop\ of the first group being arranged when effective to control the positioning element. to place an alphabetic type in printing position, each stop of the second group being arranged when effective to control the positioning element to place a numeral type in printing position, record controlled means to render any stop effective, a totalizer, an actuating rack operable by'the positioning element for inserting amounts in the totalizena lost motion connection between the podtioning element and the actuating rack whereby the actuating rack. 

